r"""Evaluate match expressions, as used by `-k` and `-m`.

The grammar is:

expression: expr? EOF
expr:       and_expr ('or' and_expr)*
and_expr:   not_expr ('and' not_expr)*
not_expr:   'not' not_expr | '(' expr ')' | ident
ident:      (\w|:|\+|-|\.|\[|\])+

The semantics are:

- Empty expression evaluates to False.
- ident evaluates to True of False according to a provided matcher function.
- or/and/not evaluate according to the usual boolean semantics.
"""
import ast
import enum
import re
import types
from typing import Callable
from typing import Iterator
from typing import Mapping
from typing import Optional
from typing import Sequence
from typing import TYPE_CHECKING

import attr

if TYPE_CHECKING:
    from typing import NoReturn


__all__ = [
    "Expression",
    "ParseError",
]


class TokenType(enum.Enum):
    LPAREN = "left parenthesis"
    RPAREN = "right parenthesis"
    OR = "or"
    AND = "and"
    NOT = "not"
    IDENT = "identifier"
    EOF = "end of input"


@attr.s(frozen=True, slots=True)
class Token:
    type = attr.ib(type=TokenType)
    value = attr.ib(type=str)
    pos = attr.ib(type=int)


class ParseError(Exception):
    """The expression contains invalid syntax.

    :param column: The column in the line where the error occurred (1-based).
    :param message: A description of the error.
    """

    def __init__(self, column: int, message: str) -> None:
        self.column = column
        self.message = message

    def __str__(self) -> str:
        return f"at column {self.column}: {self.message}"


class Scanner:
    __slots__ = ("tokens", "current")

    def __init__(self, input: str) -> None:
        self.tokens = self.lex(input)
        self.current = next(self.tokens)

    def lex(self, input: str) -> Iterator[Token]:
        pos = 0
        while pos < len(input):
            if input[pos] in (" ", "\t"):
                pos += 1
            elif input[pos] == "(":
                yield Token(TokenType.LPAREN, "(", pos)
                pos += 1
            elif input[pos] == ")":
                yield Token(TokenType.RPAREN, ")", pos)
                pos += 1
            else:
                match = re.match(r"(:?\w|:|\+|-|\.|\[|\])+", input[pos:])
                if match:
                    value = match.group(0)
                    if value == "or":
                        yield Token(TokenType.OR, value, pos)
                    elif value == "and":
                        yield Token(TokenType.AND, value, pos)
                    elif value == "not":
                        yield Token(TokenType.NOT, value, pos)
                    else:
                        yield Token(TokenType.IDENT, value, pos)
                    pos += len(value)
                else:
                    raise ParseError(
                        pos + 1, 'unexpected character "{}"'.format(input[pos]),
                    )
        yield Token(TokenType.EOF, "", pos)

    def accept(self, type: TokenType, *, reject: bool = False) -> Optional[Token]:
        if self.current.type is type:
            token = self.current
            if token.type is not TokenType.EOF:
                self.current = next(self.tokens)
            return token
        if reject:
            self.reject((type,))
        return None

    def reject(self, expected: Sequence[TokenType]) -> "NoReturn":
        raise ParseError(
            self.current.pos + 1,
            "expected {}; got {}".format(
                " OR ".join(type.value for type in expected), self.current.type.value,
            ),
        )


# True, False and None are legal match expression identifiers,
# but illegal as Python identifiers. To fix this, this prefix
# is added to identifiers in the conversion to Python AST.
IDENT_PREFIX = "$"


def expression(s: Scanner) -> ast.Expression:
    if s.accept(TokenType.EOF):
        ret: ast.expr = ast.NameConstant(False)
    else:
        ret = expr(s)
        s.accept(TokenType.EOF, reject=True)
    return ast.fix_missing_locations(ast.Expression(ret))


def expr(s: Scanner) -> ast.expr:
    ret = and_expr(s)
    while s.accept(TokenType.OR):
        rhs = and_expr(s)
        ret = ast.BoolOp(ast.Or(), [ret, rhs])
    return ret


def and_expr(s: Scanner) -> ast.expr:
    ret = not_expr(s)
    while s.accept(TokenType.AND):
        rhs = not_expr(s)
        ret = ast.BoolOp(ast.And(), [ret, rhs])
    return ret


def not_expr(s: Scanner) -> ast.expr:
    if s.accept(TokenType.NOT):
        return ast.UnaryOp(ast.Not(), not_expr(s))
    if s.accept(TokenType.LPAREN):
        ret = expr(s)
        s.accept(TokenType.RPAREN, reject=True)
        return ret
    ident = s.accept(TokenType.IDENT)
    if ident:
        return ast.Name(IDENT_PREFIX + ident.value, ast.Load())
    s.reject((TokenType.NOT, TokenType.LPAREN, TokenType.IDENT))


class MatcherAdapter(Mapping[str, bool]):
    """Adapts a matcher function to a locals mapping as required by eval()."""

    def __init__(self, matcher: Callable[[str], bool]) -> None:
        self.matcher = matcher

    def __getitem__(self, key: str) -> bool:
        return self.matcher(key[len(IDENT_PREFIX) :])

    def __iter__(self) -> Iterator[str]:
        raise NotImplementedError()

    def __len__(self) -> int:
        raise NotImplementedError()


class Expression:
    """A compiled match expression as used by -k and -m.

    The expression can be evaulated against different matchers.
    """

    __slots__ = ("code",)

    def __init__(self, code: types.CodeType) -> None:
        self.code = code

    @classmethod
    def compile(self, input: str) -> "Expression":
        """Compile a match expression.

        :param input: The input expression - one line.
        """
        astexpr = expression(Scanner(input))
        code: types.CodeType = compile(
            astexpr, filename="<pytest match expression>", mode="eval",
        )
        return Expression(code)

    def evaluate(self, matcher: Callable[[str], bool]) -> bool:
        """Evaluate the match expression.

        :param matcher:
            Given an identifier, should return whether it matches or not.
            Should be prepared to handle arbitrary strings as input.

        :returns: Whether the expression matches or not.
        """
        ret: bool = eval(self.code, {"__builtins__": {}}, MatcherAdapter(matcher))
        return ret
